A ball striking device includes a ball striking plate having a front surface configured to strike a ball and a rear surface opposite the front surface. The ball striking plate has a desired-contact region and a perimeter. One or more spoke-like reinforcement ribs may be located on the rear surface and may radiate away from the desired-contact region toward the perimeter. At least one of the spoke-like reinforcement ribs may be located in an upper-toe quadrant or in an upper-heel quadrant of the rear surface. One or more encircling reinforcement ribs may be located on the rear surface. The one or more encircling reinforcement ribs may be at least partially encircling the desired-contact region. A thickened portion of the ball striking plate may be positioned behind the desired-contact region of the ball striking plate. The ball striking device may be a golf club head.
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14. A ball striking device comprising:
a ball striking plate having a front surface configured to strike a ball and a rear surface opposite the front surface, the ball striking plate having a desired-contact region and a perimeter;
one or more spoke-like reinforcement ribs located on the rear surface and extending away from the desired-contact region toward the perimeter;
one or more encircling reinforcement ribs located on the rear surface, the one or more encircling reinforcement ribs at least partially encircling the desired-contact region,
wherein the one or more encircling reinforcement ribs comprises at least three encircling reinforcement ribs, and wherein a spacing of the plurality of encircling reinforcement ribs from one another increases as a distance from the desired-contact region increases.
1. A ball striking device comprising:
a ball striking plate having a front surface configured to strike a ball and a rear surface opposite the front surface, the ball striking plate having a desired-contact region and a perimeter;
one or more spoke-like reinforcement ribs located on the rear surface and extending away from the desired-contact region toward the perimeter;
one or more encircling reinforcement ribs located on the rear surface, the one or more encircling reinforcement ribs at least partially encircling the desired-contact region,
wherein at least one of the spoke-like reinforcement ribs has a maximum cross-sectional area ranging from 0.10 mm2 to 0.70 mm2, and
wherein at least one of the encircling reinforcement ribs partially encircles the desired-contact region and has a first end and a second end, and wherein the first end is joined to a first portion of the perimeter of the ball striking plate and the second end is joined to a second portion of the perimeter of the ball striking plate.
20. A ball striking device comprising:
a ball striking plate having a front surface configured to strike a ball and a rear surface opposite the front surface, the ball striking plate having a desired-contact region and a perimeter;
a thickened portion of the ball striking plate, the thickened portion including an elevated area on the rear surface of the ball striking plate positioned behind the desired-contact region of the ball striking plate; and
a plurality of reinforcement ribs located on the rear surface, the plurality of reinforcement ribs including at least one of a spoke-like reinforcement rib extending away from the desired-contact region and at least one of an encircling reinforcement rib at least partially encircling the thickened portion;
wherein the at least one of the encircling reinforcement has a first end and a second end, and wherein the first end is joined to a first portion of the perimeter of the ball striking plate and the second end is joined to a second portion of the perimeter of the ball striking plate.
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This application claims the benefit of priority of U.S. Provisional Application No. 61/654,057, filed May 31, 2012, the contents of which are hereby incorporated by reference in its entirety.
The invention relates generally to ball striking devices having a reinforced ball striking plate. Certain aspects of this invention relate to ball striking devices, such as golf clubs and golf club heads, having one or more reinforcement elements located on a back surface of the ball striking plate.
The energy or velocity transferred to the ball by a golf club or other ball striking device may be related, at least in part, to the flexibility of the club face at the point of contact, and can be expressed using a measurement called “coefficient of restitution” (or “COR”). The maximum COR for golf club heads is currently limited by the USGA at 0.83. Generally, a club head will have an area of highest response relative to other areas of the face, such as having the highest COR, which imparts the greatest energy and velocity to the ball, and this area is typically positioned at or near the center of the ball striking face. In one example, the area of highest response may have a COR that is equal to the prevailing USGA limit (e.g. currently 0.83). However, because golf clubs are typically designed to contact the ball at or around the center of the face, off-center hits with many existing golf clubs may result in less energy being transferred to the ball, decreasing the distance of the shot.
The flexing behavior of the ball striking face and/or other portions of the head during impact can also influence the energy and velocity transferred to the ball, the direction of ball flight after impact, and the spin imparted to the ball, among other factors. Accordingly, a need exists to alter and/or improve the deformation and response of the ball striking face and/or other portions of the head during impact. The flexing behavior of the ball itself during impact can also influence some or all of these factors. Excess deformation of the ball during impact can result in energy loss, such as in the form of heat. Certain characteristics of the face and/or other portions of the head during impact can have an effect on the deformation of the ball. Accordingly, a need also exists to provide a ball striking head with features that cause altered and/or improved deformation behavior of the ball during impacts with the ball striking face of the head.
The present devices and methods are provided to address at least some of the problems discussed above and other problems, and to provide advantages and aspects not provided by prior ball striking devices of this type. A full discussion of the features and advantages of the present invention is deferred to the following detailed description, which proceeds with reference to the accompanying drawings.
The following presents a general summary of aspects of the invention in order to provide a basic understanding of the invention. This summary is not an extensive overview of the invention. It is not intended to identify key or critical elements of the invention or to delineate the scope of the invention. The following summary merely presents some concepts of the invention in a general form as a prelude to the more detailed description provided below.
According to aspects of the invention, a ball striking device includes a ball striking plate having a front surface configured to strike a ball and a rear surface opposite the front surface. The ball striking plate has a desired-contact region and a perimeter. The ball striking device further includes one or more reinforcement ribs located on the rear surface.
The reinforcement ribs may include spoke-like reinforcement ribs that extend away from the desired-contact region toward the perimeter. Further, a first end of a spoke-like reinforcement rib extending away from the desired-contact region may lie within the desired-contact region, contact a boundary of the desired-contact region, or lie outside of the desired-contact region. Further a second end of a spoke-like reinforcement rib extending toward a perimeter of the ball striking plate may fall short of the perimeter, or may reach the perimeter. The perimeter may be defined by a frame.
According to certain aspects, the reinforcement ribs may include one or more spoke-like reinforcement ribs that are radially-aligned with a predetermined point located within the desired-contact region of the ball striking plate. The spoke-like reinforcement ribs may be formed as elongated linear elements and/or as elongated curved elements. A plurality of the spoke-like reinforcement ribs may be located in an upper-toe quadrant and/or in an upper-heel quadrant of the rear surface. Alternatively, or in addition, a plurality of the spoke-like reinforcement ribs may be located in a lower-toe quadrant and/or in a lower-heel quadrant of the rear surface. At least some of the reinforcement ribs may be evenly spaced (angularly or otherwise) from one another. One or more of the spoke-like reinforcement ribs may have a maximum cross-sectional area ranging from 0.10 mm2 to 0.70 mm2. The cross-sectional area may be constant along the length of the rib or it may decrease as the rib extends outward.
According to other aspects, the reinforcement ribs may include one or more encircling reinforcement ribs. An encircling reinforcement rib may completely or at least partially encircle the desired-contact region. A partially encircling rib may extend between portions of the perimeter of the ball striking plate. A plurality of encircling reinforcement ribs may have a constant, increasing or otherwise varying spacing between adjacent ribs as the distance from the desired-contact region increases.
A spoke-like reinforcement rib may extend away from the desired-contact region and an encircling reinforcement rib may at least partially encircle the desired-contact region. When both spoke-like and encircling reinforcement ribs are provided, they may intersect to form a web or network of ribs.
According to even further aspects, the ball striking plate may be provided with a thickened portion positioned behind the desired-contact region of the ball striking plate. The thickened portion may include an elevated area on the rear surface of the ball striking plate and a transition area. The transition area may taper in thickness between an upper boundary of the elevated area and a lower boundary of the thickened portion. The thickened portion may have any suitable shape, including, for example, a peanut shape or a kidney shape. The elevated area may have a maximum thickness of that ranges from approximately 2.5 mm to approximately 3.5 mm. A peripheral portion that surrounds the thickened portion may have a minimum thickness less than approximately 2.0 mm.
Spoke-like reinforcement ribs may contact and extend from the thickened portion. Encircling reinforcement ribs may have the same general shape as the shape of the thickened portion.
According to certain aspects, the ball striking plate may be connected to a body to thereby form a golf club head. A shaft may be engaged with the golf club head to form a golf club.
These and additional features and advantages disclosed here will be further understood from the following detailed disclosure taken in conjunction with the attached drawings.
To allow for a more full understanding of the present invention, it will now be described by way of example, with reference to the following drawings.
The various figures in this application illustrate examples of ball striking devices and portions thereof according to this invention. The figures referred to above are not necessarily drawn to scale, should be understood to provide a representation of particular embodiments of the invention, and are merely conceptual in nature and illustrative of the principles involved. Some features of the ball striking devices depicted in the drawings may have been enlarged or distorted relative to others to facilitate explanation and understanding. When the same reference number appears in more than one drawing, that reference number is used consistently in this specification and the drawings to refer to similar or identical components and features shown in the various alternative embodiments.
A general description of aspects of the invention followed by a more detailed description of specific embodiments follows. It is to be understood that other specific arrangements of parts, structures, example devices, systems, and steps may be utilized and structural and functional modifications may be made without departing from the scope of the present invention. It is expected that ball striking devices as disclosed herein would have configurations and components determined, in part, by the intended application and environment in which they are used. Thus, for certain specific embodiments the dimensions and/or other characteristics of the ball striking device structures according to aspects of this invention may vary significantly without departing from the invention.
The following terms are used in this specification, and unless otherwise noted or clear from the context, these terms have the meanings provided below.
“Ball striking device” means any device constructed and designed to strike a ball or other similar objects (such as a hockey puck). In addition to generically encompassing “ball striking heads,” which are described in more detail below, examples of “ball striking devices” include, but are not limited to: golf clubs, putters, croquet mallets, polo mallets, baseball or softball bats, cricket bats, tennis rackets, badminton rackets, table tennis paddles, field hockey sticks, ice hockey sticks, and the like.
“Ball striking head” means the portion of a “ball striking device” that includes and is located immediately adjacent (optionally surrounding) the portion of the ball striking device designed to contact the ball (or other object) in use. In some examples, such as many golf clubs and putters, the ball striking head may be a separate and independent entity from any shaft or handle member, and it may be attached to the shaft or handle in some manner.
“Integral joining” means a technique for joining two pieces so that the two pieces effectively become a single, integral piece, including, but not limited to, irreversible joining techniques, such as adhesively joining, cementing, welding, brazing, soldering, or the like. In many bonds made by “integral joining,” separation of the joined pieces cannot be accomplished without structural damage thereto.
“Approximately” incorporates a variation or error of +/−10% of the nominal value stated.
“Generally constant thickness” incorporates a variation or error of +/−5% of the average thickness over the entirety of the area in question.
“Desired-contact” region refers to the as-designed, optimal region of the ball striking plate for contacting the ball or other struck object. This “desired-contact” region is sometimes referred to, informally, as the “sweet spot.” For purposes of this disclosure, the desired-contact region is considered to extend through the thickness of the ball striking plate, i.e., the region is not limited to the front surface of the ball striking plate. The desired-contact region may generally be centered on the geometric center of the ball striking plate. Further, the desired-contact region may be defined as the area of the ball striking plate that is capable of achieving at least 99.7% of the maximum ball speed achievable by the ball striking device. Alternatively, the desired-contact region may be defined as the area of the ball striking plate that is capable of achieving at least 99.5% or even at least 99.0% of the maximum ball speed achievable by the ball striking device. By way of example, for ball striking devices which are golf clubs the desired-contact region may have an area generally ranging from approximately 50 mm2 to approximately 250 mm2. It is expected that other ball striking devices may have different areas of the desired-contact regions.
“Central” region refers to a circular region generally centered on the geometric center of the ball striking plate. The central region may have an area generally greater than approximately 50 mm2, greater than approximately 70 mm2, greater than approximately 90 mm2, greater than approximately 110 mm2, greater than approximately 130 mm2, greater than approximately 150 mm2, or even greater than approximately 200 mm2. In certain embodiments, the central region may have an area generally ranging from approximately 50 mm2 to approximately 250 mm2, from approximately 70 mm2 to approximately 200 mm2, or from approximately 90 mm2 to approximately 200 mm2.
“Spoke-like” element refers an elongated element extending away from a predetermined point (such as a geometric center of the ball striking plate or other point) or an elongated element extending away from a predetermined region (such as a desired-contact region, a central region or other region) toward a perimeter. “Spoke-like” does not imply any particular elongated profile. Thus, a spoke-like element may be linear or curved. A spoke-like element may be “radially-aligned,” i.e., radiating away from or extending through a predetermined point such as the geometric center (or aligned with the predetermined point/geometric center without actually extending to or through the predetermined point/geometric center). For example, spokes of an old-fashioned wagon wheel are “radially-aligned.” Alternatively, a spoke-like element may be “radially-skewed,”i.e., extending away from a desired-contact region or a central region without actually being aligned with a predetermined point or a geometric center. For example, the metal spokes of most modern bicycle wheels are “radially-skewed” in that they are not actually aligned with the center of the hub, but rather extend outward from a circumferential edge of the hub. Further, a spoke-like element may extend toward a perimeter without actually extending to or reaching the perimeter.
“Encircling” means at least partially extending around, surrounding, circumscribing, etc, an encircled item, but does not imply any particular shape or contour, such as circular, elliptical, etc. unless otherwise specified. “Completely encircling” means that the encircling feature extends 360 degrees around the encircled item.
The term “thickness” or “plate thickness,” when used in reference to a ball striking plate as described herein refers to the distance between the front surface of the ball striking plate and the rear surface of the ball striking plate. The thickness is generally the distance between a point on the front surface of the ball striking plate and the nearest point on the rear surface of the plate, respectively, and may be measured perpendicularly to the front or rear surface at the point in question.
In general, aspects of this invention relate to ball striking devices having a ball striking plate. Such ball striking devices, according to at least some examples of the invention, may include a ball striking head and a shaft, wherein the head includes the ball striking plate.
Aspects of the invention relate to ball striking devices with a head that includes a ball striking plate configured for striking a ball. Various example structures include ball striking plates that are provided with reinforcement elements, such as reinforcement ribs. Reinforcement ribs are elongated elements. Thus, according to certain aspects, the thickness in certain areas of the striking plate may be reduce (relative to a constant thickness striking plate), thereby resulting in a weight reduction, while maintaining the desired structural integrity of these areas via the presentment of the reinforcement elements. The overall weight saved due to the reduced-thickness plate portions may be discretionarily placed elsewhere on the head, thereby allowing improved control of mass characteristics (e.g., moment-of-inertia, center-of-gravity, etc.) and/or vibration characteristics.
Further, various example structures of ball striking plates described herein may include a thickened portion that forms a raised platform or elevated area extending rearwardly from a rear surface of the striking plate. Thus, the striking plate may have an elevated or thickened area protruding from the rear surface and having increased thickness relative to a surrounding peripheral portion of the plate. The thickened portion may be positioned behind the geometric center of the striking plate. Further, the thickened portion may be positioned behind at least a portion of the desired-contact region or the central region of the striking plate. In some embodiments, the thickened portion may extend completely over and possibly beyond the perimeter of the desired-contact region or the central region of the striking plate. U.S. patent application Ser. No. 13/211,961, filed Aug. 17, 2011, titled “Golf Club or Other Ball Striking Device Having Stiffened Face Portion,” which is incorporated by reference herein in its entirety and made part hereof, discloses thickened portions on rear surfaces of ball striking plates.
The thickened portions and/or elevated areas may have shapes that are elongated and may be elliptical or semi-elliptical, multi-lobed, or generally peanut- or kidney-shaped. In certain embodiments, the thickened portion may have an outer edge defining a shape that includes two lobes (i.e., a portion where the outer edge has a generally convex outer profile), and a connecting portion extending between the lobes. The connecting portion is defined by outer edges extending between the outer edges of the lobes, with at least one of the outer edges of the connecting portion having a concave profile. If only one of the outer edges of the connecting portion is concave, the resultant shape may be what is referred to as a kidney-shaped thickened portion. If both of the outer edges of the connecting portion are concave, the resultant shape may be what is referred to as a peanut-shaped thickened portion.
In general, the thickened portion and/or the elevated area may assume any shape. For example, the elevated level of the thickened portion may be generally circular, oval, elliptical, tear-drop shaped, pear shaped, square, rectangular, triangular, trapezoidal, polygonal (with or without rounded corners and/or with straight or curved edges). Further, the lobed shapes need not be limited to double-lobed shapes, but may be triple-lobed or quadruple-lobed (or with even a higher number of lobes). Even further, the thickened portion and/or the elevated area need not have a regular geometric shape, nor need it be symmetrically shaped. Thus, for example, the thickened portion and/or the elevated area may have an amorphous, curved, amoeba-like shape.
The thickened portion and/or the elevated area may be elongated along an axis of elongation. This axis of elongation would typically be coincident with the maximum planar dimension of the thickened portion and/or elevated area. The angle of the axis of elongation may be based on typical ball striking patterns. A typical angle (counterclockwise from the horizontal when viewed from the rear surface) for the axis of elongation may be between 0°-15° or 0°-20°. In various other embodiments, the angle for the axis of elongation may be limited to between 5°-15° or 5°-18°. Thus, it is to be understood that the thickened portion may have a different orientation and/or axis of elongation for any specific ball striking device.
Additionally, according to some embodiments, the dimensions measured along a second axis perpendicular to the axis of elongation may vary. Thus, for example, a double-lobed thickened portion may have a first axis, wherein the lobes each have dimensions measured along a second axis perpendicular to the first axis, and the lobes are wider (i.e. have greater dimensions perpendicular to the axis of elongation) than the connecting area, which is narrowed with respect to the lobes. Optionally, the thickened portion may be a triple-lobed shape.
According to some aspects, the thickened portion may have a generally constant thickness. In certain embodiments, the elevated area may be a plateau area having a generally constant thickness over the entire area within the upper boundary of the annular or encircling tapered area. According to other embodiments, the elevated area need not be constant, but may be stepped, slanted, faceted, convexly domed, concave, etc.
Optionally, the thickened portion may further include a transition area that tapers in thickness between a first upper boundary (or upper contour edge) and a first lower boundary (or lower contour edge). The transition area may be an annular or encircling transition area that encloses or substantially encloses the elevated area. The change in thickness of this transition area as it extends from the upper contour edge to the lower contour edge may be constant (i.e. linear), may be curvilinear and/or may follow a regular mathematical relationship (i.e. parabolic, hyperbolic, semi-circular, semi-elliptical), may be instantaneous (e.g. a 90° drop), or may be irregular or may follow a different pattern. Additionally, the transition profile (i.e., the profile from the upper edge to the lower edge) of the transition area may be the same over the entirety of its annular extent or may be different in different locations of the annulus. At the lower boundary, the transition area may smoothly merge into the rear surface of the ball striking plate.
The elevated area and the transition area may be considered together to form the thickened portion relative to the peripheral portion of the ball striking plate.
Further, according to some aspects, the thickened portion may have multiple elevated levels and/or multiple transition areas. When multiple elevated levels are provided, the individual levels may be stacked with lower levels having larger areal footprints than upper levels (e.g., like a Mayan stepped pyramid). When multiple elevated levels are provided, the contour or perimeter shape of each of the elevated levels may be the same. Optionally, the contour of the elevated levels may differ from one another, not only in size, but in shape and/or orientation. Further, one or more multiple transition areas may extend between the plurality of elevated levels and may be formed as sloped or tapered regions having thicknesses that gradually increase or decrease between the boundary edges of the various elevated levels.
According to certain aspects, typically for golf clubs, the thickened portion of the ball striking plate may cover a total area that ranges from approximately 75 mm2 to approximately 3000 mm2. The lower end of the range may be more appropriate for irons, while the upper end of the range may be more appropriate for drivers. In some embodiments, the thickened portion of the striking plate may be very localized, such that it covers a total area that ranges only from approximately 75 mm2 to approximately 150 mm2 or, optionally, from approximately 75 mm2 to approximately 250 mm2. In some embodiments, the thickened portion may be less localized, such that it covers a total area that ranges from approximately 250 mm2 to approximately 500 mm2, from approximately 250 mm2 to approximately 750 mm2, or even from approximately 250 mm2 to approximately 1000 mm2. In other embodiments, the thickened portion of the ball striking plate may be somewhat larger, such that it covers a total area that ranges from approximately 750 mm2 to approximately 1250 mm2, from approximately 1000 mm2 to approximately 1250 mm2, or even from approximately 1000 mm2 to approximately 1500 mm2.
According to some aspects, the thickened portion may have a maximum thickness of approximately 2.00 mm to approximately 4.50 mm. More typically, the thickened portion may have a maximum thickness of approximately 2.50 mm to approximately 4.00 mm. Alternatively, the thickened portion may have a maximum thickness of approximately 2.25 mm to approximately 3.75 mm, a maximum thickness of approximately 2.50 mm to approximately 3.5 mm, or even a maximum thickness of approximately 2.50 mm to approximately 3.25 mm. As noted above, this thickness may be substantially constant in the elevated areas 132. Further, these thicknesses may be especially suitable for golf clubs having metallic ball striking plates.
Generally, a peripheral portion extends from the thickened portion to a perimeter of the ball striking plate. The perimeter of the ball striking plate may be coincident with an inner edge of a frame extending at least partially around the ball striking plate. The peripheral portion may have a constant thickness or a varying thickness. In any event, a minimum thickness for the peripheral portion may be determined. According to some aspects, the peripheral portion may have a minimum thickness of approximately 1.20 mm to approximately 2.50 mm. More typically, the peripheral portion may have a minimum thickness of approximately 1.40 mm to approximately 2.10 mm. Alternatively, the peripheral portion may have a minimum thickness of approximately 1.50 mm to approximately 2.00 mm, a minimum thickness of approximately 1.60 mm to approximately 1.90 mm, or even a minimum thickness of approximately 1.65 mm to approximately 1.85 mm. These thicknesses may be especially suitable for golf clubs having metallic ball striking plates.
Alternatively, the maximum thickness of the thickened portion may be disclosed as an increase in thickness relative to a minimum thickness of the surrounding peripheral portion. Thus, according to some embodiments, the maximum thickness of the thickened portion may range from 125% to 200% of the minimum thickness of the surrounding peripheral portion, i.e., the increase in thickness may range from 25% to 100% of the minimum thickness. For example, if the maximum thickness is 175% of the minimum thickness, and if the minimum thickness of the peripheral region was approximately 1.90 mm, then the maximum thickness of the thickened portion would be approximately 3.33 mm.
According to even other aspects, the total volume of material in the thickened portion of the ball striking plate may be a consideration. For example, should the thickened portion have an area of 500 mm2 and a constant thickness of 3.00 mm, the total volume of the thickened portion would be 1.50 cm3. In general, for certain golf club heads, a total volume of the thickened portion of the ball striking plate of between 0.50 cm3 and 2.50 cm3 may be desirable, particularly if the ball striking plate is formed of a metal such as steel or titanium. Optionally, a total volume of the thickened portion between 0.50 cm3 and 1.00 cm3 for lightly loaded ball striking plates may be desirable, while a total volume of the thickened portion between 1.50 cm3 and 2.50 cm3 for more severely loaded ball striking plates may be more appropriate.
According to aspects of the invention, the ball striking plate of the ball striking device may have one or more reinforcement elements. Reinforcement elements may include reinforcement ribs on the rear surface of the plate. Reinforcement ribs may be formed as relatively long, thin members or elongated, raised strips, beads, filaments, fins, protrusions, etc. extending across the rear surface the plate. The reinforcement ribs may provide increased stiffness to certain areas or portions of the ball striking plate, and may therefore be considered to constitute stiffening members.
Reinforcement ribs may be used to efficiently focus and channel the loads experienced due to striking the ball at or near a geometric center, a desired-contact region and/or a center region of the striking plate to the perimeter of the ball striking place. A frame or other body member extending around the perimeter may then react and dissipate the loads. Further, reinforcement ribs may more efficiently react out-of-plane vibrational loads (as compared to a constant thickness flat plate). Thus, reinforcement ribs may allow the overall thickness of the ball striking plate to be reduced by selectively reinforcing the primary load carrying paths of the ball striking plate.
According to certain aspects, the thickened portion may be provided in addition to the reinforcement ribs. Thus, the reinforcement ribs may be provided on the relatively thin peripheral portion of the ball striking plate. One or more reinforcement ribs may extend away from the thickened portion or the central region toward the perimeter of the ball striking plate. According to some embodiments, a first end of a reinforcement rib may be joined to the thickened portion and a second end may be joined to a frame extending around the perimeter. One or more reinforcement ribs may extend around a predetermined point, a geometric center, a desired-contact region, or a central region. Thus, according to some embodiments, the reinforcement ribs need not extend from or radiate from the thickened portion.
According to some aspects, the reinforcement ribs may be spoke-like reinforcement ribs. As such, the spoke-like reinforcement ribs may radiate or extend away from the desired-contact region or the central region toward the perimeter of the ball striking plate. In certain embodiments, the spoke-like reinforcement ribs may be radially-aligned with a point on the ball striking plate. For example the spoke-like reinforcement ribs may be radially-aligned with the geometric center of the ball striking plate. According to other embodiments, one or more of the spoke-like reinforcement ribs may be radially-skewed from any particular point on the ball striking plate.
The angular spacing between adjacent spoke-like reinforcement ribs may or may not be equal. Optionally, a plurality of spoke-like reinforcement ribs may extend in parallel away from a predetermined point or region of the ball striking plate toward the perimeter of the plate. Even further, the spacing and angular orientation of the spoke-like reinforcement ribs may appear random or disorganized.
According to certain aspects, the reinforcement ribs may be encircling reinforcement ribs that at least partially encircle the geometric center of the ball striking plate. Optionally, the encircling reinforcement ribs may at least partially encircling the desired-contact region, the central region and/or the thickened portion. One or more of the encircling reinforcement ribs may extend completely around the geometric center. Such an encircling reinforcement rib may form a closed rib. One or more of the encircling reinforcement ribs may extend only partially around the geometric center. In such case, the encircling reinforcement rib may from an open rib. Optionally, the encircling reinforcement rib may extend from one portion of the perimeter of the ball striking plate to another portion of the perimeter of the ball striking plate.
The spacing between adjacent encircling reinforcement ribs may increase as the distance from the geometric center increases. In other embodiments, this spacing between adjacent encircling reinforcement ribs may be constant or may decrease as the distance from the predetermined point, the geometric center, the desired-contact region or the center region increases. In even other embodiments, the spacing between any two adjacent encircling reinforcement ribs may be constant as the ribs extend around the geometric center. Alternatively, the spacing between any two adjacent encircling reinforcement ribs may increase and/or decrease as the ribs extend around the geometric center or other point.
A reinforcement rib may have any suitable cross-section and any suitable cross-sectional area. The cross-sectional shape and/or the cross-sectional area of any one reinforcement rib may be constant or may vary along its length. Further, the cross-sectional characteristics of the reinforcement ribs need not be the same for every rib. By way of example, according to certain aspects, a reinforcement rib may have a maximum height (i.e., a height above the rear surface of the ball striking plate) that ranges from approximately 0.10 mm to approximately 2.0 mm. By way of example, a reinforcement rib may have a maximum height that ranges from approximately 0.20 mm to approximately 1.5 mm, from approximately 0.20 mm to approximately 1.0 mm, from approximately 0.20 mm to approximately 0.80 mm, or even from approximately 0.20 mm to approximately 0.60 mm. As an example, a reinforcement rib may have a height of approximately 0.40 mm.
According to certain other aspects, a reinforcement rib may have a maximum width that ranges from approximately 0.10 mm to approximately 3.0 mm. By way of example, a reinforcement rib may have a maximum width that ranges from approximately 0.20 mm to approximately 2.5 mm, from approximately 0.50 mm to approximately 2.0 mm, from approximately 1.0 mm to approximately 2.0 mm, or even from approximately 1.20 mm to approximately 1.80 mm. As an example, a reinforcement rib may have a width of approximately 1.0 mm.
These example numerical ranges for the maximum heights and widths of the reinforcement ribs may be especially appropriate for metallic ball striking plates. Further, reinforcement ribs having a height-to-width ratio ranging from 0.2 to 2.0 may be desirable. Even further, reinforcement ribs having a height-to-plate thickness ratio of 0.10 to 0.5 may be desirable.
In accordance with some aspects, the reinforcement rib may have a maximum cross-sectional area that ranges from approximately 0.10 mm2 to approximately 1.00 mm2. Optionally, a reinforcement rib having a maximum cross-sectional area that ranges from approximately 0.20 mm2 to approximately 0.90 mm2, from approximately 0.30 mm2 to approximately 0.80 mm2, from approximately 0.30 mm2 to approximately 0.70 mm2, or even from approximately 0.30 mm2 to approximately 0.60 mm2 may provide suitable reinforcement and/or stiffening.
In certain embodiments, both spoke-like reinforcement ribs and encircling reinforcement ribs may be provided. Where encircling reinforcement ribs cross over spoke-like reinforcement ribs they may intersect.
The reinforcement ribs (and the thickened portion) described herein may increase energy transfer and impact velocity for impacts between the ball striking surface and a ball. The reinforcement ribs and the thickened portion may create a stiffened center portion of the ball striking plate, which permits other areas of the plate to be made more flexible (such as by decreasing the thickness). This may result in a more gradual impact (longer dwell time) with the ball, which in turn may decrease overall ball deformation. Because significant energy loss can occur with excessive ball deformation, the reinforced configuration of the ball striking plate may result in less overall energy loss and greater energy and velocity upon impact.
In certain embodiments, a frame may extend rearwardly from the perimeter of the ball striking plate. The frame in conjunction with the striking plate may have a cup-like configuration, with walls extending rearwardly from the entire perimeter of striking plate. Optionally, the frame in conjunction with the ball striking plate may have a generally U-shaped cross-sectional configuration, with the frame extending rearwardly from both a top section or a bottom section of the perimeter edges of striking plate. In certain embodiments, the frame in conjunction with plate may have a generally L-shaped cross-sectional configuration, i.e., the frame extends rearwardly from just one of the top section or bottom section perimeter edges of the ball striking plate.
The frame (if any) around the ball striking plate and/or other portions of the ball striking device may flex during impact to cooperate with the ball striking plate to reduce ball deformation and thereby increase the return energy and velocity on impact. Additionally, the stiffened center portion and more flexible peripheral portions of the ball striking plate may increase the trampoline effect of the plate. The thickened portion and reinforcement ribs may also reduce stresses and strains in the ball striking plate, thereby increasing the durability and usable life of the plate. Still further benefits may be recognized and appreciated by those skilled in the art.
According to another aspect, the ball striking device is a golf club having a golf club head. The golf club head may include a cavity. The cavity may be completely enclosed by the ball striking plate and at least one body member, or the cavity may be at least partially open.
Other aspects relate to a golf club that includes a golf club head as described above and a shaft engaged with the head. Further aspects relate to a set of golf clubs, particularly, a set of iron-type clubs, that includes at least one club head according to aspects described above.
Some more specific aspects of this invention may relate to golf clubs, such as drivers, fairway woods, hybrid-type clubs, iron-type golf clubs, and the like, although aspects of this invention also may be practiced on other types of golf clubs or other ball striking devices, if desired. Although the following description uses golf clubs to exemplify the various aspects of the invention, it is to be understood that the invention is not limited to golf clubs.
According to various aspects of this invention, the ball striking device and/or any of its components, may be formed of one or more of a variety of materials, such as metals (including metal alloys), ceramics, polymers, composites, fiber-reinforced composites, and wood, and the devices may be formed in one of a variety of configurations, without departing from the scope of the invention. In one embodiment, some or all components of the head, including the face and at least a portion of the body of the head, are made of metal materials. It is understood that the head also may contain components made of several different materials. Additionally, the components may be formed by various forming methods. For example, metal components (such as titanium, aluminum, titanium alloys, aluminum alloys, steels (such as stainless steels), and the like) may be formed by forging, molding, casting, stamping, machining, and/or other known techniques. In another example, composite components, such as carbon fiber-polymer composites, can be manufactured by a variety of composite processing techniques, such as pre-preg processing, powder-based techniques, mold infiltration, and/or other known techniques. Also, if desired, the club heads may be made from any number of pieces (e.g., having a separate face plate, etc.) and/or by any construction technique, including, for example, casting, forging, welding, and/or other methods known and used in the art.
In general, aspects of the present invention relate to structural features for providing ball striking plate with improved performance and durability characteristics. Specific examples of the various aspects are described in more detail below. The reader should understand that these specific examples should not be construed as limiting the invention.
At least some examples of ball striking devices according to this invention relate to golf club head structures, including heads for wood-type golf clubs, including drivers. Such devices may include a one-piece construction or a multiple-piece construction.
The ball striking device 10 includes a ball striking head 14 and a shaft 12 connected to the ball striking head 14 and extending therefrom. The shaft 12 of ball striking device 10 may be made of various materials such as steel, titanium, graphite, wood, polymers, composite materials, etc., as would be known to persons of skill in the art. A grip (not shown) may be positioned on the shaft 12 to provide a user with a slip resistant surface on which to grasp ball striking device 10.
As shown in
As best shown in
As illustrated in
Further, as illustrated in
The thickened portion 130 has a greater thickness than the surrounding or peripheral portion 140 of the plate 26. Peripheral portion 140 surrounds (or partially surrounds) the thickened portion 130 and extends from the thickened portion 130 to an edge of the frame 28 (if any). Thickened portion 130 includes an elevated area 132 and may include a transition area 134. According to some aspects and referring to
According to certain aspects, the thickened portion 130 may have any of various different shapes and configurations. For example, as best shown in
In certain embodiments, the elevated level 132 may be formed as a plateau (i.e., a generally flat, non-inclined region) having generally constant thickness. Alternatively, the surface of the elevated level 132 may be formed with a tapered shape, a domed shape, a bowl shape, a saddle shape, a rippled shape, and/or combinations thereof, or other varying height surface. In other words, the thickness of the elevated level 132 may vary within its contour edge 136a.
According to some aspects, an annular transition area 134 may surround the elevated area 132 and extend between an upper contour edge 136a and a lower contour edge 136b. The thickness of the transition area 134 may decrease from the upper contour edge 136a to the lower contour edge 136b.
According to some aspects, and as best shown in
The lower contour edge 136b may generally follow the contour of the upper contour edge 136a. Thus, if the upper contour edge 136a follows a double-lobed shape, the lower contour edge 136a may also follow a double-lobed shape. Optionally, the shape of the lower contour edge 136b may deviate from the shape of the upper contour edge 136a. Thus, for example, the upper contour edge 136a may be peanut shaped, while the lower contour edge 136b may be kidney shaped, amoeba shaped, elliptical, round, pear shaped, etc.
Additionally, as shown in
As shown in the embodiment of
For purposes of this disclosure, the striking plate 26 may be apportioned into quadrants. A predetermined point 135 (i.e., an origin) for the quadrants may be established. Although this predetermined point 135 may coincide with the geometric center 133 of the ball striking plate 26, in general it need not. Optionally, the predetermined point 135 for establishing the quadrants may be selected as the areal centroid of the thickened portion 130. Vertical (Z) and horizontal (X) lines extending through the predetermined point 135 define the four quadrants.
Thus, referring to
According to aspects of the invention and referring to
According to other aspects, reinforcement ribs 142 may be provided as strips of material embedded in the plane of the ball striking plate. Reinforcement ribs may be formed as elongated regions of material having a greater elastic modulus than the surrounding material. This stiffer material may be partially or fully embedded in the surrounding material of the ball striking plate. Thus, according to certain embodiments, the reinforcement ribs 142 need not be raised above the rear surface of the plate. According to some embodiments, reinforcement ribs may be provided as filaments that are, for example, formed separately and place in a mold prior to filling the mold with the surrounding material. According to other embodiments, reinforcement ribs may be pre-tensioned prior to filling the mold.
Referring to
In the embodiment of
In the embodiment of
In the embodiment of
The encircling reinforcement ribs 142c may generally follow the contour of the thickened portion 130. Encircling reinforcement ribs 142c closer to the thickened portion 130 may more closely follow the shape of the contour of the thickened portion, while encircling reinforcement ribs 142c farther away from the thickened portion 130 may smooth out and loose some of the detail of the contour shape.
Further, the encircling reinforcement ribs 142c closest to the thickened portion 130 may form complete rings as shown in
In particular embodiment illustrated in
In the embodiment of
In the embodiment of
In the embodiment of
In the embodiment of
In the embodiment of
In any or all of the above described embodiments, the thickness of the peripheral portion 140 of plate 26 in the vicinity of the reinforcement ribs 142 (for example, between adjacent ribs 142f) may be less than the thickness of the peripheral portion 140 of plate 26 away from the ribs. In other words, the area of plate 26 adjacent to the ribs 142 may be made thinner than the area of plate 26 where there are no ribs located. The ribs 142 may allow the thickness of plate 26 to be reduced by more efficiently carrying and distributing the loads due to hitting the golf ball. Thus, for example, referring to both
Thus, referring to
As shown in
As shown in
As shown in
According to certain aspects, reinforcement ribs 142 may be integrally formed with striking plate 26. Optionally, reinforcement ribs 142 may be formed separately and subsequently applied to the rear surface 30 of striking plate 26. Even further, reinforcement ribs 142 may be formed directly on the rear surface 30 of striking plate 26. For example, the material of plate 26 that surrounds or extends alongside reinforcement ribs 142 may be etched or machined away, leaving the reinforcement ribs behind.
According to some embodiments and referring back to
According to some embodiments, a striking plate 26 of a multi-piece golf club head 14 may be in the form of a substantially planar face plate, an L-shaped face member, a cup-face member, or another form. In other embodiments, a set of golf irons may have structures as described herein with the longer irons (e.g. 4-7) being formed of two pieces, including a striking plate 25 and a frame 28 joined by welding, and the shorter irons (e.g. 8, 9, P, S, A) being formed of a cast or forged single piece. For example, a single-piece head 14 may be made from 17-4 stainless steel, whereas a two-piece head 14 may be made with the frame 28 formed from 17-4 stainless steel and the striking plate 26 formed of 455 or 465 stainless steel.
The ball striking plate 26 as shown and described herein may be constructed from a wide variety of different materials, including materials conventionally known and used in the art, such as steel, titanium, aluminum, tungsten, graphite, polymers, or composites, or combinations thereof. More specific examples of such materials that may be used to form ball striking plate 26, including thickened portions 130 and/or reinforcement ribs 142 as described herein, include those described above, including high strength stainless steels such as C455 and C465, other stainless steels such as 17-4, other steels such as maraging steels (e.g. Maraging 250) or AerMet steels or Nexcor steels, high strength titanium alloys such as 6-4, SP700, 8-1-1, 15-3-3-3, and 2041, PEEK polymer with or without fiber reinforcement, amorphous “liquid metal” alloys, bulk modulus composites, etc. High strength alloys and other materials having yield strengths of approximately 230-240 ksi or greater and ultimate strengths of approximately 250-260 ksi or greater may be desirable. In one embodiment, the striking plate 26 of a fairway wood or hybrid-type club may be made from C465 alloy having a yield strength of at least 240 ksi and an ultimate tensile strength of at least 260 ksi. In another embodiment, the ball striking plate 26 of a driver wood-type club may be made from a high strength titanium alloy (e.g. 6-4) having a yield strength of approximately 120-150 ksi or greater and an ultimate tensile strength of approximately 130-165 ksi or greater. In a further embodiment, the plate 26 of a driver wood-type club may be made from a 15-3-3-3 titanium alloy that may have a yield strength of approximately 145-181 ksi or greater and an ultimate tensile strength of approximately 165-200 ksi or greater.
The body 15 of golf club head 14 may also be constructed of various materials such as steel, titanium, aluminum, tungsten, graphite, polymers, plastics, composites or the like. It is understood that the body 15 may be unitarily formed as a single piece or as separate pieces that are joined together. For example, the body 15 may be formed as separate pieces (i.e., the frame 28, a hosel 22, etc.) which are subsequently joined by integral joining techniques, such as welding, cementing, or adhesively joining. Other known techniques for joining these parts can be used as well, including many mechanical joining techniques, such as releasable mechanical engagement techniques.
The reduction in weight of the ball striking face 26 achieved by efficiently channeling loads and selectively stiffening portions of the face 26 may result in an increase in the coefficient of restitution (COR). Alternatively or in addition, the COR may be set at the prevailing USCA limit (e.g., 0.83) while reducing the weight of the club head, improving the dynamic response and/or improving the durability of the ball striking face. Even further, the area of the ball striking face 26 having the highest COR may be increased, such that even off-center hits may result in increased energy being transferred to the ball, thereby increasing the distance of the shot.
Any of the embodiments of ball striking devices 10, golf club heads 14, ball striking plates 26, and other components described herein may include any of the features described herein with respect to other embodiments described herein, unless otherwise noted. The specific sizes, shapes, orientations, and locations of various components of the ball striking devices 10 and heads 14 described herein are simply examples, and that any of these features or properties may be altered in other embodiments. The desired shapes, orientations, configurations, etc. of the thickened portions 130, the reinforcement ribs 142 and/or other portions of the ball striking plate 26 may be altered to achieve different impact physics or to account for changes to other portions of the golf club head 14. Further, different types of ball striking devices may be manufactured according to the principles described herein.
In general, golf club head 14 may be any driver, wood, hybrid, iron, wedge, putter or the like. The golf club head 14 of
Thus, while there have been shown, described, and pointed out fundamental novel features of various embodiments, it will be understood that various omissions, substitutions, and changes in the form and details of the devices illustrated, and in their operation, may be made by those skilled in the art without departing from the spirit and scope of the invention. For example, it is expressly intended that all combinations of those elements and/or steps which perform substantially the same function, in substantially the same way, to achieve the same results are within the scope of the invention. Substitutions of elements from one described embodiment to another are also fully intended and contemplated. It is the intention, therefore, to be limited only as indicated by the scope of the claims appended hereto.
Slaughter, Byron C., Knight, William C., Franklin, David N., Snyder, Jeremy
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Jul 01 2013 | KNIGHT, WILLIAM C | NIKE USA, INC | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 032852 | /0530 | |
Jul 08 2013 | FRANKLIN, DAVID N | NIKE USA, INC | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 032852 | /0530 | |
Jul 15 2013 | SLAUGHTER, BYRON C | NIKE USA, INC | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 032852 | /0530 | |
Nov 17 2013 | SNYDER, JEREMY | NIKE USA, INC | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 032852 | /0530 | |
Dec 19 2013 | NIKE USA, INC | NIKE, Inc | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 032852 | /0565 | |
Jan 27 2017 | NIKE, Inc | Karsten Manufacturing Corporation | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 041823 | /0161 |
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